Here, we are aimed to evaluate bacteriophage (191219) to treat The bacteriophages (191219) were provided from D&D Pharma GmbH. These bacteriophages were tested against Aim
Method
Infected wounds are a major problem for patients and health care systems. The inflammation triggers expression of high levels of extracellular protease activities which degrade newly formed granulation tissue. The expression of host-derived proteases had been studied in wound healing extensively. In contrast, the contribution of bacterial proteases in impaired healing acute and chronic wounds is poorly understood as is how bacterial proteases can be blocked. In this study the expression of P. aeruginosa proteases was studied. P. aeruginosa is associated with poor healing and sufficiently common in wound infections to merit closer study. We used in vitro biofilm and planktonic culture models to analyze the culture-dependent expression of different P. aeruginosa proteases and how protease modulating polymers can inhibit activities. P. aeruginosa (PAO1, DSM 22644) was grown in LBo medium (aerated planktonic cultures) or in a biofilm culture model (dialysis tubing on LBo plates). The supernatant of planktonic or wash fluids from biofilm cultures were analyzed for protease activity. Global extracellular protease activities increased in a time- and culture condition-dependent manner (for planktonic cultures 180 ng/ml trypsin equivalent 8h, 330 ng/ml 24h, 490 ng/ml 48h; biofilm cultures 190 ng/ml trypsin equivalent 8h, 420 ng/ml 24h, 170 ng/ml 48h). Enzyme zymography revealed in biofilm cultures predominant bands at 50 kD (8h, 24h, 48h), 90 kD (24h) and > 200 kD (8h, 24h, 48h). In planktonic cultures the pattern was different 50 kD (8h), 90 kD (8h, 24h, 48h), 130 kD (24h, 48h) and > 200 kD (8h, 24h). Two different polyacrylate superabsorbers could inhibit P. aeruginosa protease activities. Favor PAC 300 blocked protease activity by 60% and SXM 9170 by 35%. These data demonstrate complex, culture-dependent expression of extracellular proteases in P. aeruginosa, a microorganism associated with poor wound healing outcomes. From a therapeutic perspective polyacrylate superabsorbers strongly inhibited global protease activities. In the next steps the protease expression pattern needs to be analyzed in P. aeruginosa wounds and correlated with healing progression.
Current treatments of prosthetic joint infection (PJI) are minimally effective against The ability of PlySs2 and vancomycin to kill biofilm and colony-forming units (CFUs) on orthopaedic implants were compared using in vitro models. An in vivo murine PJI model of DAIR was used to assess the efficacy of a combination of PlySs2 and vancomycin on periprosthetic bacterial load.Aims
Methods
Periprosthetic joint infection (PJI) remains one of the most devastating complications that can occur following total joint arthroplasty. Failure rate of standard treatment for PJI is estimated to be around 40% at two years post revision surgery. A major clinical challenge contributing to treatment failure and antibiotics tolerance is the biofilm formation on implant surfaces. Lytic bacteriophages (phages) can target biofilm associated bacteria at localized sites of infection by penetrating and disrupting biofilm matrices; furthermore, phage replication within the biofilm leads to high local concentrations resulting in a powerful therapeutic effect. The aim of this study is to test if phage cocktail has better antimicrobial effect than vancomycin or a single agent phage against biofilm forming MRSA clinical strain Staphylococcus aureus (S. aureus). S. aureus BP043 was utilized in this study. This strain is a PJI clinical isolate, methicillin resistant (MRSA) and biofilm-former. Three lytic phages, namely, 44AHJD, Team1 and P68, known to infect S. aureus, were tested for their efficiency against S. aureus BP043. The ability of the phages to eliminate S. aureus BP043 planktonic or biofilm cultures was tested either as singular phages or as a cocktail of the three phages.
Biofilm-related infection is a major complication that occurs in orthopaedic surgery. Various treatments are available but efficacy to eradicate infections varies significantly. A systematic review was performed to evaluate therapeutic interventions combating biofilm-related infections on in vivo animal models. Literature research was performed on PubMed and Embase databases. Keywords used for search criteria were “bone AND biofilm”. Information on the species of the animal model, bacterial strain, evaluation of biofilm and bone infection, complications, key findings on observations, prevention, and treatment of biofilm were extracted.Aims
Methods
Periprosthetic joint infections (PJIs) are among the most devastating complications after joint arthroplasty. There is limited evidence on the efficacy of different antiseptic solutions on reducing biofilm burden. The purpose of the present study was to test the efficacy of different antiseptic solutions against clinically relevant microorganisms in biofilm. We conducted an in vitro study examining the efficacy of several antiseptic solutions against clinically relevant microorganisms. We tested antiseptic irrigants against nascent (four-hour) and mature (three-day) single-species biofilm created in vitro using a drip-flow reactor model.Aims
Methods